Raman evidence for pressure-induced formation of diamondene

The synthesis of two-dimensional diamond is the ultimate goal of diamond thin-film technology. Here, the authors perform Raman spectroscopy of bilayer graphene under pressure, and obtain spectroscopic evidence of formation of diamondene, an atomically thin form of diamond.

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Detalles Bibliográficos
Autores principales:	Luiz Gustavo Pimenta Martins, Matheus J. S. Matos, Alexandre R. Paschoal, Paulo T. C. Freire, Nadia F. Andrade, Acrísio L. Aguiar, Jing Kong, Bernardo R. A. Neves, Alan B. de Oliveira, Mário S.C. Mazzoni, Antonio G. Souza Filho, Luiz Gustavo Cançado
Formato:	article
Lenguaje:	EN
Publicado:	Nature Portfolio 2017
Materias:	Science Q
Acceso en línea:	https://doaj.org/article/f22b667bf62d4b73934fcde11b5f6144
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spelling	oai:doaj.org-article:f22b667bf62d4b73934fcde11b5f61442021-12-02T14:16:04ZRaman evidence for pressure-induced formation of diamondene10.1038/s41467-017-00149-82041-1723https://doaj.org/article/f22b667bf62d4b73934fcde11b5f61442017-07-01T00:00:00Zhttps://doi.org/10.1038/s41467-017-00149-8https://doaj.org/toc/2041-1723The synthesis of two-dimensional diamond is the ultimate goal of diamond thin-film technology. Here, the authors perform Raman spectroscopy of bilayer graphene under pressure, and obtain spectroscopic evidence of formation of diamondene, an atomically thin form of diamond.Luiz Gustavo Pimenta MartinsMatheus J. S. MatosAlexandre R. PaschoalPaulo T. C. FreireNadia F. AndradeAcrísio L. AguiarJing KongBernardo R. A. NevesAlan B. de OliveiraMário S.C. MazzoniAntonio G. Souza FilhoLuiz Gustavo CançadoNature PortfolioarticleScienceQENNature Communications, Vol 8, Iss 1, Pp 1-9 (2017)
institution	DOAJ
collection	DOAJ
language	EN
topic	Science Q
spellingShingle	Science Q Luiz Gustavo Pimenta Martins Matheus J. S. Matos Alexandre R. Paschoal Paulo T. C. Freire Nadia F. Andrade Acrísio L. Aguiar Jing Kong Bernardo R. A. Neves Alan B. de Oliveira Mário S.C. Mazzoni Antonio G. Souza Filho Luiz Gustavo Cançado Raman evidence for pressure-induced formation of diamondene
description	The synthesis of two-dimensional diamond is the ultimate goal of diamond thin-film technology. Here, the authors perform Raman spectroscopy of bilayer graphene under pressure, and obtain spectroscopic evidence of formation of diamondene, an atomically thin form of diamond.
format	article
author	Luiz Gustavo Pimenta Martins Matheus J. S. Matos Alexandre R. Paschoal Paulo T. C. Freire Nadia F. Andrade Acrísio L. Aguiar Jing Kong Bernardo R. A. Neves Alan B. de Oliveira Mário S.C. Mazzoni Antonio G. Souza Filho Luiz Gustavo Cançado
author_facet	Luiz Gustavo Pimenta Martins Matheus J. S. Matos Alexandre R. Paschoal Paulo T. C. Freire Nadia F. Andrade Acrísio L. Aguiar Jing Kong Bernardo R. A. Neves Alan B. de Oliveira Mário S.C. Mazzoni Antonio G. Souza Filho Luiz Gustavo Cançado
author_sort	Luiz Gustavo Pimenta Martins
title	Raman evidence for pressure-induced formation of diamondene
title_short	Raman evidence for pressure-induced formation of diamondene
title_full	Raman evidence for pressure-induced formation of diamondene
title_fullStr	Raman evidence for pressure-induced formation of diamondene
title_full_unstemmed	Raman evidence for pressure-induced formation of diamondene
title_sort	raman evidence for pressure-induced formation of diamondene
publisher	Nature Portfolio
publishDate	2017
url	https://doaj.org/article/f22b667bf62d4b73934fcde11b5f6144
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Raman evidence for pressure-induced formation of diamondene

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